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Container Storage Interface (CSI)

Authors:

Notational Conventions

The keywords "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" are to be interpreted as described in RFC 2119 (Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, March 1997).

The key words "unspecified", "undefined", and "implementation-defined" are to be interpreted as described in the rationale for the C99 standard.

An implementation is not compliant if it fails to satisfy one or more of the MUST, REQUIRED, or SHALL requirements for the protocols it implements. An implementation is compliant if it satisfies all the MUST, REQUIRED, and SHALL requirements for the protocols it implements.

Terminology

Term Definition
Volume A unit of storage that will be made available inside of a CO-managed container, via the CSI.
Block Volume A volume that will appear as a block device inside the container.
Mounted Volume A volume that will be mounted using the specified file system and appear as a directory inside the container.
CO Container Orchestration system, communicates with Plugins using CSI service RPCs.
SP Storage Provider, the vendor of a CSI plugin implementation.
RPC Remote Procedure Call.
Node A host where the user workload will be running, uniquely identifiable from the perspective of a Plugin by a node ID.
Plugin Aka “plugin implementation”, a gRPC endpoint that implements the CSI Services.
Plugin Supervisor Process that governs the lifecycle of a Plugin, MAY be the CO.
Workload The atomic unit of "work" scheduled by a CO. This may be a container or a collection of containers.

Objective

To define an industry standard “Container Storage Interface” (CSI) that will enable storage vendors (SP) to develop a plugin once and have it work across a number of container orchestration (CO) systems.

Goals in MVP

The Container Storage Interface (CSI) will

  • Enable SP authors to write one CSI compliant Plugin that “just works” across all COs that implement CSI.
  • Define API (RPCs) that enable:
    • Dynamic provisioning and deprovisioning of a volume.
    • Attaching or detaching a volume from a node.
    • Mounting/unmounting a volume from a node.
    • Consumption of both block and mountable volumes.
    • Local storage providers (e.g., device mapper, lvm).
    • Creating and deleting a snapshot (source of the snapshot is a volume).
    • Provisioning a new volume from a snapshot (reverting snapshot, where data in the original volume is erased and replaced with data in the snapshot, is out of scope).
  • Define plugin protocol RECOMMENDATIONS.
    • Describe a process by which a Supervisor configures a Plugin.
    • Container deployment considerations (CAP_SYS_ADMIN, mount namespace, etc.).

Non-Goals in MVP

The Container Storage Interface (CSI) explicitly will not define, provide, or dictate in v0.1:

  • Specific mechanisms by which a Plugin Supervisor manages the lifecycle of a Plugin, including:
    • How to maintain state (e.g. what is attached, mounted, etc.).
    • How to deploy, install, upgrade, uninstall, monitor, or respawn (in case of unexpected termination) Plugins.
  • A first class message structure/field to represent "grades of storage" (aka "storage class").
  • Protocol-level authentication and authorization.
  • Packaging of a Plugin.
  • POSIX compliance: CSI provides no guarantee that volumes provided are POSIX compliant filesystems. Compliance is determined by the Plugin implementation (and any backend storage system(s) upon which it depends). CSI SHALL NOT obstruct a Plugin Supervisor or CO from interacting with Plugin-managed volumes in a POSIX-compliant manner.

Solution Overview

This specification defines an interface along with the minimum operational and packaging recommendations for a storage provider (SP) to implement a CSI compatible plugin. The interface declares the RPCs that a plugin must expose: this is the primary focus of the CSI specification. Any operational and packaging recommendations offer additional guidance to promote cross-CO compatibility.

Architecture

The primary focus of this specification is on the protocol between a CO and a Plugin. It SHOULD be possible to ship cross-CO compatible Plugins for a variety of deployment architectures. A CO should be equipped to handle both centralized and headless plugins, as well as split-component and unified plugins. Several of these possibilities are illustrated in the following figures.

                             CO "Master" Host
+-------------------------------------------+
|                                           |
|  +------------+           +------------+  |
|  |     CO     |   gRPC    | Controller |  |
|  |            +----------->   Plugin   |  |
|  +------------+           +------------+  |
|                                           |
+-------------------------------------------+

                            CO "Node" Host(s)
+-------------------------------------------+
|                                           |
|  +------------+           +------------+  |
|  |     CO     |   gRPC    |    Node    |  |
|  |            +----------->   Plugin   |  |
|  +------------+           +------------+  |
|                                           |
+-------------------------------------------+

Figure 1: The Plugin runs on all nodes in the cluster: a centralized
Controller Plugin is available on the CO master host and the Node
Plugin is available on all of the CO Nodes.
                            CO "Node" Host(s)
+-------------------------------------------+
|                                           |
|  +------------+           +------------+  |
|  |     CO     |   gRPC    | Controller |  |
|  |            +--+-------->   Plugin   |  |
|  +------------+  |        +------------+  |
|                  |                        |
|                  |                        |
|                  |        +------------+  |
|                  |        |    Node    |  |
|                  +-------->   Plugin   |  |
|                           +------------+  |
|                                           |
+-------------------------------------------+

Figure 2: Headless Plugin deployment, only the CO Node hosts run
Plugins. Separate, split-component Plugins supply the Controller
Service and the Node Service respectively.
                            CO "Node" Host(s)
+-------------------------------------------+
|                                           |
|  +------------+           +------------+  |
|  |     CO     |   gRPC    | Controller |  |
|  |            +----------->    Node    |  |
|  +------------+           |   Plugin   |  |
|                           +------------+  |
|                                           |
+-------------------------------------------+

Figure 3: Headless Plugin deployment, only the CO Node hosts run
Plugins. A unified Plugin component supplies both the Controller
Service and Node Service.
                            CO "Node" Host(s)
+-------------------------------------------+
|                                           |
|  +------------+           +------------+  |
|  |     CO     |   gRPC    |    Node    |  |
|  |            +----------->   Plugin   |  |
|  +------------+           +------------+  |
|                                           |
+-------------------------------------------+

Figure 4: Headless Plugin deployment, only the CO Node hosts run
Plugins. A Node-only Plugin component supplies only the Node Service.
Its GetPluginCapabilities RPC does not report the CONTROLLER_SERVICE
capability.

Volume Lifecycle

   CreateVolume +------------+ DeleteVolume
 +------------->|  CREATED   +--------------+
 |              +---+----+---+              |
 |       Controller |    | Controller       v
+++         Publish |    | Unpublish       +++
|X|          Volume |    | Volume          | |
+-+             +---v----+---+             +-+
                | NODE_READY |
                +---+----^---+
               Node |    | Node
            Publish |    | Unpublish
             Volume |    | Volume
                +---v----+---+
                | PUBLISHED  |
                +------------+

Figure 5: The lifecycle of a dynamically provisioned volume, from
creation to destruction.
   CreateVolume +------------+ DeleteVolume
 +------------->|  CREATED   +--------------+
 |              +---+----+---+              |
 |       Controller |    | Controller       v
+++         Publish |    | Unpublish       +++
|X|          Volume |    | Volume          | |
+-+             +---v----+---+             +-+
                | NODE_READY |
                +---+----^---+
               Node |    | Node
              Stage |    | Unstage
             Volume |    | Volume
                +---v----+---+
                |  VOL_READY |
                +------------+
               Node |    | Node
            Publish |    | Unpublish
             Volume |    | Volume
                +---v----+---+
                | PUBLISHED  |
                +------------+

Figure 6: The lifecycle of a dynamically provisioned volume, from
creation to destruction, when the Node Plugin advertises the
STAGE_UNSTAGE_VOLUME capability.
    Controller                  Controller
       Publish                  Unpublish
        Volume  +------------+  Volume
 +------------->+ NODE_READY +--------------+
 |              +---+----^---+              |
 |             Node |    | Node             v
+++         Publish |    | Unpublish       +++
|X| <-+      Volume |    | Volume          | |
+++   |         +---v----+---+             +-+
 |    |         | PUBLISHED  |
 |    |         +------------+
 +----+
   Validate
   Volume
   Capabilities

Figure 7: The lifecycle of a pre-provisioned volume that requires
controller to publish to a node (`ControllerPublishVolume`) prior to
publishing on the node (`NodePublishVolume`).
       +-+  +-+
       |X|  | |
       +++  +^+
        |    |
   Node |    | Node
Publish |    | Unpublish
 Volume |    | Volume
    +---v----+---+
    | PUBLISHED  |
    +------------+

Figure 8: Plugins may forego other lifecycle steps by contraindicating
them via the capabilities API. Interactions with the volumes of such
plugins is reduced to `NodePublishVolume` and `NodeUnpublishVolume`
calls.

The above diagrams illustrate a general expectation with respect to how a CO MAY manage the lifecycle of a volume via the API presented in this specification. Plugins should expose all RPCs for an interface: Controller plugins should implement all RPCs for the Controller service. Unsupported RPCs should return an appropriate error code that indicates such (e.g. CALL_NOT_IMPLEMENTED). The full list of plugin capabilities is documented in the ControllerGetCapabilities and NodeGetCapabilities RPCs.

Container Storage Interface

This section describes the interface between COs and Plugins.

RPC Interface

A CO interacts with an Plugin through RPCs. Each SP MUST provide:

  • Node Plugin: A gRPC endpoint serving CSI RPCs that MUST be run on the Node whereupon an SP-provisioned volume will be published.
  • Controller Plugin: A gRPC endpoint serving CSI RPCs that MAY be run anywhere.
  • In some circumstances a single gRPC endpoint MAY serve all CSI RPCs (see Figure 3 in Architecture).
syntax = "proto3";
package csi.v0;

import "google/protobuf/wrappers.proto";

option go_package = "csi";

There are three sets of RPCs:

  • Identity Service: Both the Node Plugin and the Controller Plugin MUST implement this sets of RPCs.
  • Controller Service: The Controller Plugin MUST implement this sets of RPCs.
  • Node Service: The Node Plugin MUST implement this sets of RPCs.
service Identity {
  rpc GetPluginInfo(GetPluginInfoRequest)
    returns (GetPluginInfoResponse) {}

  rpc GetPluginCapabilities(GetPluginCapabilitiesRequest)
    returns (GetPluginCapabilitiesResponse) {}

  rpc Probe (ProbeRequest)
    returns (ProbeResponse) {}
}

service Controller {
  rpc CreateVolume (CreateVolumeRequest)
    returns (CreateVolumeResponse) {}

  rpc DeleteVolume (DeleteVolumeRequest)
    returns (DeleteVolumeResponse) {}

  rpc ControllerPublishVolume (ControllerPublishVolumeRequest)
    returns (ControllerPublishVolumeResponse) {}

  rpc ControllerUnpublishVolume (ControllerUnpublishVolumeRequest)
    returns (ControllerUnpublishVolumeResponse) {}

  rpc ValidateVolumeCapabilities (ValidateVolumeCapabilitiesRequest)
    returns (ValidateVolumeCapabilitiesResponse) {}

  rpc ListVolumes (ListVolumesRequest)
    returns (ListVolumesResponse) {}

  rpc GetCapacity (GetCapacityRequest)
    returns (GetCapacityResponse) {}

  rpc ControllerGetCapabilities (ControllerGetCapabilitiesRequest)
    returns (ControllerGetCapabilitiesResponse) {}

  rpc CreateSnapshot (CreateSnapshotRequest)
    returns (CreateSnapshotResponse) {}

  rpc DeleteSnapshot (DeleteSnapshotRequest)
    returns (DeleteSnapshotResponse) {}

  rpc ListSnapshots (ListSnapshotsRequest)
    returns (ListSnapshotsResponse) {}
}

service Node {
  rpc NodeStageVolume (NodeStageVolumeRequest)
    returns (NodeStageVolumeResponse) {}

  rpc NodeUnstageVolume (NodeUnstageVolumeRequest)
    returns (NodeUnstageVolumeResponse) {}

  rpc NodePublishVolume (NodePublishVolumeRequest)
    returns (NodePublishVolumeResponse) {}

  rpc NodeUnpublishVolume (NodeUnpublishVolumeRequest)
    returns (NodeUnpublishVolumeResponse) {}

  // NodeGetId is being deprecated in favor of NodeGetInfo and will be
  // removed in CSI 1.0. Existing drivers, however, may depend on this
  // RPC call and hence this RPC call MUST be implemented by the CSI
  // plugin prior to v1.0.
  rpc NodeGetId (NodeGetIdRequest)
    returns (NodeGetIdResponse) {
    option deprecated = true;
  }

  rpc NodeGetCapabilities (NodeGetCapabilitiesRequest)
    returns (NodeGetCapabilitiesResponse) {}

  // Prior to CSI 1.0 - CSI plugins MUST implement both NodeGetId and
  // NodeGetInfo RPC calls.
  rpc NodeGetInfo (NodeGetInfoRequest)
    returns (NodeGetInfoResponse) {}
}

Concurrency

In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call “in-flight” per volume at a given time. However, in some circumstances, the CO may lose state (for example when the CO crashes and restarts), and may issue multiple calls simultaneously for the same volume. The plugin should handle this as gracefully as possible. The error code OPERATION_PENDING_FOR_VOLUME may be returned by the plugin in this case (see general error code section for details).

Field Requirements

The requirements documented herein apply equally and without exception, unless otherwise noted, for the fields of all protobuf message types defined by this specification. Violation of these requirements MAY result in RPC message data that is not compatible with all CO, Plugin, and/or CSI middleware implementations.

Size Limits

CSI defines general size limits for fields of various types (see table below). The general size limit for a particular field may be overridden by specifying a different size limit in said field's description. Unless otherwise specified, fields SHALL NOT exceed the limits documented here. These limits apply for messages generated by both COs and plugins.

Size Field Type
128 bytes string
4 KiB map<string, string>
REQUIRED vs. OPTIONAL
  • A field noted as REQUIRED MUST be specified, subject to any per-RPC caveats; caveats SHOULD be rare.
  • A repeated or map field listed as REQUIRED MUST contain at least 1 element.
  • A field noted as OPTIONAL MAY be specified and the specification SHALL clearly define expected behavior for the default, zero-value of such fields.

Error Scheme

All CSI API calls defined in this spec MUST return a standard gRPC status. Most gRPC libraries provide helper methods to set and read the status fields.

The status code MUST contain a canonical error code. COs must handle all valid error codes. Each RPC defines a set of gRPC error codes that MUST be returned by the plugin when specified conditions are encountered. In addition to those, if the conditions defined below are encountered, the plugin MUST return the associated gRPC error code.

Condition gRPC Code Description Recovery Behavior
Missing required field 3 INVALID_ARGUMENT Indicates that a required field is missing from the request. More human-readable information MAY be provided in the error_description field. Caller MUST fix the request by adding the missing required field before retrying.
Invalid or unsupported field in the request 3 INVALID_ARGUMENT Indicates that the one ore more fields in this field is either not allowed by the Plugin or has an invalid value. More human-readable information MAY be provided in the gRPC status.message field. Caller MUST fix the field before retrying.

The status message MUST contain a human readable description of error, if the status code is not OK. This string MAY be surfaced by CO to end users.

The status details MUST be empty. In the future, this spec may require details to return a machine-parsable protobuf message if the status code is not OK to enable CO's to implement smarter error handling and fault resolution.

Secrets Requirements

Secrets may be required by plugin to complete a RPC request. A secret is a string to string map where the key identifies the name of the secret (e.g. "username" or "password"), and the value contains the secret data (e.g. "bob" or "abc123"). Each key MUST consist of alphanumeric characters, '-', '_' or '.'. Each value MUST contain a valid string. An SP MAY choose to accept binary (non-string) data by using a binary-to-text encoding scheme, like base64. An SP SHALL advertise the requirements for required secret keys and values in documentation. CO SHALL permit passing through the required secrets. A CO MAY pass the same secrets to all RPCs, therefore the keys for all unique secrets that an SP expects must be unique across all CSI operations. This information is sensitive and MUST be treated as such (not logged, etc.) by the CO.

Identity Service RPC

Identity service RPCs allow a CO to query a plugin for capabilities, health, and other metadata. The general flow of the success case MAY be as follows (protos illustrated in YAML for brevity):

  1. CO queries metadata via Identity RPC.
   # CO --(GetPluginInfo)--> Plugin
   request:
   response:
      name: org.foo.whizbang.super-plugin
      vendor_version: blue-green
      manifest:
        baz: qaz
  1. CO queries available capabilities of the plugin.
   # CO --(GetPluginCapabilities)--> Plugin
   request:
   response:
     capabilities:
       - service:
           type: CONTROLLER_SERVICE
  1. CO queries the readiness of the plugin.
   # CO --(Probe)--> Plugin
   request:
   response: {}

GetPluginInfo

message GetPluginInfoRequest {
  // Intentionally empty.
}

message GetPluginInfoResponse {
  // The name MUST follow reverse domain name notation format
  // (https://en.wikipedia.org/wiki/Reverse_domain_name_notation).
  // It SHOULD include the plugin's host company name and the plugin
  // name, to minimize the possibility of collisions. It MUST be 63
  // characters or less, beginning and ending with an alphanumeric
  // character ([a-z0-9A-Z]) with dashes (-), underscores (_),
  // dots (.), and alphanumerics between. This field is REQUIRED.
  string name = 1;

  // This field is REQUIRED. Value of this field is opaque to the CO.
  string vendor_version = 2;

  // This field is OPTIONAL. Values are opaque to the CO.
  map<string, string> manifest = 3;
}
GetPluginInfo Errors

If the plugin is unable to complete the GetPluginInfo call successfully, it MUST return a non-ok gRPC code in the gRPC status.

GetPluginCapabilities

This REQUIRED RPC allows the CO to query the supported capabilities of the Plugin "as a whole": it is the grand sum of all capabilities of all instances of the Plugin software, as it is intended to be deployed. All instances of the same version (see vendor_version of GetPluginInfoResponse) of the Plugin SHALL return the same set of capabilities, regardless of both: (a) where instances are deployed on the cluster as well as; (b) which RPCs an instance is serving.

message GetPluginCapabilitiesRequest {
  // Intentionally empty.
}

message GetPluginCapabilitiesResponse {
  // All the capabilities that the controller service supports. This
  // field is OPTIONAL.
  repeated PluginCapability capabilities = 2;
}

// Specifies a capability of the plugin.
message PluginCapability {
  message Service {
    enum Type {
      UNKNOWN = 0;

      // CONTROLLER_SERVICE indicates that the Plugin provides RPCs for
      // the ControllerService. Plugins SHOULD provide this capability.
      // In rare cases certain plugins may wish to omit the
      // ControllerService entirely from their implementation, but such
      // SHOULD NOT be the common case.
      // The presence of this capability determines whether the CO will
      // attempt to invoke the REQUIRED ControllerService RPCs, as well
      // as specific RPCs as indicated by ControllerGetCapabilities.
      CONTROLLER_SERVICE = 1;

      // ACCESSIBILITY_CONSTRAINTS indicates that the volumes for this
      // plugin may not be equally accessible by all nodes in the
      // cluster. The CO MUST use the topology information returned by
      // CreateVolumeRequest along with the topology information
      // returned by NodeGetInfo to ensure that a given volume is
      // accessible from a given node when scheduling workloads.
      ACCESSIBILITY_CONSTRAINTS = 2;
    }
    Type type = 1;
  }

  oneof type {
    // Service that the plugin supports.
    Service service = 1;
  }
}
GetPluginCapabilities Errors

If the plugin is unable to complete the GetPluginCapabilities call successfully, it MUST return a non-ok gRPC code in the gRPC status.

Probe

A Plugin MUST implement this RPC call. The primary utility of the Probe RPC is to verify that the plugin is in a healthy and ready state. If an unhealthy state is reported, via a non-success response, a CO MAY take action with the intent to bring the plugin to a healthy state. Such actions MAY include, but SHALL NOT be limited to, the following:

  • Restarting the plugin container, or
  • Notifying the plugin supervisor.

The Plugin MAY verify that it has the right configurations, devices, dependencies and drivers in order to run and return a success if the validation succeeds. The CO MAY invoke this RPC at any time. A CO MAY invoke this call multiple times with the understanding that a plugin's implementation MAY NOT be trivial and there MAY be overhead incurred by such repeated calls. The SP SHALL document guidance and known limitations regarding a particular Plugin's implementation of this RPC. For example, the SP MAY document the maximum frequency at which its Probe implementation should be called.

message ProbeRequest {
  // Intentionally empty.
}

message ProbeResponse {
  // Readiness allows a plugin to report its initialization status back
  // to the CO. Initialization for some plugins MAY be time consuming
  // and it is important for a CO to distinguish between the following
  // cases:
  //
  // 1) The plugin is in an unhealthy state and MAY need restarting. In
  //    this case a gRPC error code SHALL be returned.
  // 2) The plugin is still initializing, but is otherwise perfectly
  //    healthy. In this case a successful response SHALL be returned
  //    with a readiness value of `false`. Calls to the plugin's
  //    Controller and/or Node services MAY fail due to an incomplete
  //    initialization state.
  // 3) The plugin has finished initializing and is ready to service
  //    calls to its Controller and/or Node services. A successful
  //    response is returned with a readiness value of `true`.
  //
  // This field is OPTIONAL. If not present, the caller SHALL assume
  // that the plugin is in a ready state and is accepting calls to its
  // Controller and/or Node services (according to the plugin's reported
  // capabilities).
  .google.protobuf.BoolValue ready = 1;
}
Probe Errors

If the plugin is unable to complete the Probe call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Plugin not healthy 9 FAILED_PRECONDITION Indicates that the plugin is not in a healthy/ready state. Caller SHOULD assume the plugin is not healthy and that future RPCs MAY fail because of this condition.
Missing required dependency 9 FAILED_PRECONDITION Indicates that the plugin is missing one or more required dependency. Caller MUST assume the plugin is not healthy.

Controller Service RPC

CreateVolume

A Controller Plugin MUST implement this RPC call if it has CREATE_DELETE_VOLUME controller capability. This RPC will be called by the CO to provision a new volume on behalf of a user (to be consumed as either a block device or a mounted filesystem).

This operation MUST be idempotent. If a volume corresponding to the specified volume name already exists, is accessible from accessibility_requirements, and is compatible with the specified capacity_range, volume_capabilities and parameters in the CreateVolumeRequest, the Plugin MUST reply 0 OK with the corresponding CreateVolumeResponse.

message CreateVolumeRequest {
  // The suggested name for the storage space. This field is REQUIRED.
  // It serves two purposes:
  // 1) Idempotency - This name is generated by the CO to achieve
  //    idempotency. If `CreateVolume` fails, the volume may or may not
  //    be provisioned. In this case, the CO may call `CreateVolume`
  //    again, with the same name, to ensure the volume exists. The
  //    Plugin should ensure that multiple `CreateVolume` calls for the
  //    same name do not result in more than one piece of storage
  //    provisioned corresponding to that name. If a Plugin is unable to
  //    enforce idempotency, the CO's error recovery logic could result
  //    in multiple (unused) volumes being provisioned.
  // 2) Suggested name - Some storage systems allow callers to specify
  //    an identifier by which to refer to the newly provisioned
  //    storage. If a storage system supports this, it can optionally
  //    use this name as the identifier for the new volume.
  string name = 1;

  // This field is OPTIONAL. This allows the CO to specify the capacity
  // requirement of the volume to be provisioned. If not specified, the
  // Plugin MAY choose an implementation-defined capacity range. If
  // specified it MUST always be honored, even when creating volumes
  // from a source; which may force some backends to internally extend
  // the volume after creating it.

  CapacityRange capacity_range = 2;

  // The capabilities that the provisioned volume MUST have: the Plugin
  // MUST provision a volume that could satisfy ALL of the
  // capabilities specified in this list. The Plugin MUST assume that
  // the CO MAY use the  provisioned volume later with ANY of the
  // capabilities specified in this list. This also enables the CO to do
  // early validation: if ANY of the specified volume capabilities are
  // not supported by the Plugin, the call SHALL fail. This field is
  // REQUIRED.
  repeated VolumeCapability volume_capabilities = 3;

  // Plugin specific parameters passed in as opaque key-value pairs.
  // This field is OPTIONAL. The Plugin is responsible for parsing and
  // validating these parameters. COs will treat these as opaque.
  map<string, string> parameters = 4;

  // Secrets required by plugin to complete volume creation request.
  // This field is OPTIONAL. Refer to the `Secrets Requirements`
  // section on how to use this field.
  map<string, string> controller_create_secrets = 5;

  // If specified, the new volume will be pre-populated with data from
  // this source. This field is OPTIONAL.
  VolumeContentSource volume_content_source = 6;
  
  // Specifies where (regions, zones, racks, etc.) the provisioned
  // volume MUST be accessible from.
  // An SP SHALL advertise the requirements for topological
  // accessibility information in documentation. COs SHALL only specify
  // topological accessibility information supported by the SP.
  // This field is OPTIONAL.
  // This field SHALL NOT be specified unless the SP has the
  // ACCESSIBILITY_CONSTRAINTS plugin capability.
  // If this field is not specified and the SP has the
  // ACCESSIBILITY_CONSTRAINTS plugin capability, the SP MAY choose
  // where the provisioned volume is accessible from.
  TopologyRequirement accessibility_requirements = 7;
}

// Specifies what source the volume will be created from. One of the
// type fields MUST be specified.
message VolumeContentSource {
  message SnapshotSource {
    // Contains identity information for the existing source snapshot.
    // This field is REQUIRED. Plugin is REQUIRED to support creating
    // volume from snapshot if it supports the capability
    // CREATE_DELETE_SNAPSHOT.
    string id = 1;
  }

  oneof type {
    SnapshotSource snapshot = 1;
  }
}

message CreateVolumeResponse {
  // Contains all attributes of the newly created volume that are
  // relevant to the CO along with information required by the Plugin
  // to uniquely identify the volume. This field is REQUIRED.
  Volume volume = 1;
}

// Specify a capability of a volume.
message VolumeCapability {
  // Indicate that the volume will be accessed via the block device API.
  message BlockVolume {
    // Intentionally empty, for now.
  }

  // Indicate that the volume will be accessed via the filesystem API.
  message MountVolume {
    // The filesystem type. This field is OPTIONAL.
    // An empty string is equal to an unspecified field value.
    string fs_type = 1;

    // The mount options that can be used for the volume. This field is
    // OPTIONAL. `mount_flags` MAY contain sensitive information.
    // Therefore, the CO and the Plugin MUST NOT leak this information
    // to untrusted entities. The total size of this repeated field
    // SHALL NOT exceed 4 KiB.
    repeated string mount_flags = 2;
  }

  // Specify how a volume can be accessed.
  message AccessMode {
    enum Mode {
      UNKNOWN = 0;

      // Can only be published once as read/write on a single node, at
      // any given time.
      SINGLE_NODE_WRITER = 1;

      // Can only be published once as readonly on a single node, at
      // any given time.
      SINGLE_NODE_READER_ONLY = 2;

      // Can be published as readonly at multiple nodes simultaneously.
      MULTI_NODE_READER_ONLY = 3;

      // Can be published at multiple nodes simultaneously. Only one of
      // the node can be used as read/write. The rest will be readonly.
      MULTI_NODE_SINGLE_WRITER = 4;

      // Can be published as read/write at multiple nodes
      // simultaneously.
      MULTI_NODE_MULTI_WRITER = 5;
    }

    // This field is REQUIRED.
    Mode mode = 1;
  }

  // Specifies what API the volume will be accessed using. One of the
  // following fields MUST be specified.
  oneof access_type {
    BlockVolume block = 1;
    MountVolume mount = 2;
  }

  // This is a REQUIRED field.
  AccessMode access_mode = 3;
}

// The capacity of the storage space in bytes. To specify an exact size,
// `required_bytes` and `limit_bytes` SHALL be set to the same value. At
// least one of the these fields MUST be specified.
message CapacityRange {
  // Volume MUST be at least this big. This field is OPTIONAL.
  // A value of 0 is equal to an unspecified field value.
  // The value of this field MUST NOT be negative.
  int64 required_bytes = 1;

  // Volume MUST not be bigger than this. This field is OPTIONAL.
  // A value of 0 is equal to an unspecified field value.
  // The value of this field MUST NOT be negative.
  int64 limit_bytes = 2;
}

// The information about a provisioned volume.
message Volume {
  // The capacity of the volume in bytes. This field is OPTIONAL. If not
  // set (value of 0), it indicates that the capacity of the volume is
  // unknown (e.g., NFS share).
  // The value of this field MUST NOT be negative.
  int64 capacity_bytes = 1;

  // Contains identity information for the created volume. This field is
  // REQUIRED. The identity information will be used by the CO in
  // subsequent calls to refer to the provisioned volume.
  string id = 2;

  // Attributes reflect static properties of a volume and MUST be passed
  // to volume validation and publishing calls.
  // Attributes SHALL be opaque to a CO. Attributes SHALL NOT be mutable
  // and SHALL be safe for the CO to cache. Attributes SHOULD NOT
  // contain sensitive information. Attributes MAY NOT uniquely identify
  // a volume. A volume uniquely identified by `id` SHALL always report
  // the same attributes. This field is OPTIONAL and when present MUST
  // be passed to volume validation and publishing calls.
  map<string, string> attributes = 3;

  // If specified, indicates that the volume is not empty and is
  // pre-populated with data from the specified source.
  // This field is OPTIONAL.
  VolumeContentSource content_source = 4;

  // Specifies where (regions, zones, racks, etc.) the provisioned
  // volume is accessible from.
  // A plugin that returns this field MUST also set the
  // ACCESSIBILITY_CONSTRAINTS plugin capability.
  // An SP MAY specify multiple topologies to indicate the volume is
  // accessible from multiple locations.
  // COs MAY use this information along with the topology information
  // returned by NodeGetInfo to ensure that a given volume is accessible
  // from a given node when scheduling workloads.
  // This field is OPTIONAL. If it is not specified, the CO MAY assume
  // the volume is equally accessible from all nodes in the cluster and
  // may schedule workloads referencing the volume on any available
  // node.
  //
  // Example 1:
  //   accessible_topology = {"region": "R1", "zone": "Z2"}
  // Indicates a volume accessible only from the "region" "R1" and the
  // "zone" "Z2".
  //
  // Example 2:
  //   accessible_topology =
  //     {"region": "R1", "zone": "Z2"},
  //     {"region": "R1", "zone": "Z3"} 
  // Indicates a volume accessible from both "zone" "Z2" and "zone" "Z3"
  // in the "region" "R1".
  repeated Topology accessible_topology = 5;
}

message TopologyRequirement {
  // Specifies the list of topologies the provisioned volume MUST be
  // accessible from.
  // This field is OPTIONAL. If TopologyRequirement is specified either
  // requisite or preferred or both MUST be specified.
  // 
  // If requisite is specified, the provisioned volume MUST be
  // accessible from at least one of the requisite topologies.
  // 
  // Given
  //   x = number of topologies provisioned volume is accessible from
  //   n = number of requisite topologies
  // The CO MUST ensure n >= 1. The SP MUST ensure x >= 1
  // If x==n, than the SP MUST make the provisioned volume available to
  // all topologies from the list of requisite topologies. If it is
  // unable to do so, the SP MUST fail the CreateVolume call.
  // For example, if a volume should be accessible from a single zone,
  // and requisite =
  //   {"region": "R1", "zone": "Z2"}
  // then the provisioned volume MUST be accessible from the "region"
  // "R1" and the "zone" "Z2".
  // Similarly, if a volume should be accessible from two zones, and
  // requisite =
  //   {"region": "R1", "zone": "Z2"},
  //   {"region": "R1", "zone": "Z3"}
  // then the provisioned volume MUST be accessible from the "region"
  // "R1" and both "zone" "Z2" and "zone" "Z3".
  //
  // If x<n, than the SP SHALL choose x unique topologies from the list
  // of requisite topologies. If it is unable to do so, the SP MUST fail
  // the CreateVolume call.
  // For example, if a volume should be accessible from a single zone,
  // and requisite =
  //   {"region": "R1", "zone": "Z2"},
  //   {"region": "R1", "zone": "Z3"}
  // then the SP may choose to make the provisioned volume available in
  // either the "zone" "Z2" or the "zone" "Z3" in the "region" "R1".
  // Similarly, if a volume should be accessible from two zones, and
  // requisite =
  //   {"region": "R1", "zone": "Z2"},
  //   {"region": "R1", "zone": "Z3"},
  //   {"region": "R1", "zone": "Z4"}
  // then the provisioned volume MUST be accessible from any combination
  // of two unique topologies: e.g. "R1/Z2" and "R1/Z3", or "R1/Z2" and
  //  "R1/Z4", or "R1/Z3" and "R1/Z4".
  //
  // If x>n, than the SP MUST make the provisioned volume available from
  // all topologies from the list of requisite topologies and MAY choose
  // the remaining x-n unique topologies from the list of all possible
  // topologies. If it is unable to do so, the SP MUST fail the
  // CreateVolume call.
  // For example, if a volume should be accessible from two zones, and
  // requisite =
  //   {"region": "R1", "zone": "Z2"}
  // then the provisioned volume MUST be accessible from the "region"
  // "R1" and the "zone" "Z2" and the SP may select the second zone
  // independently, e.g. "R1/Z4".
  repeated Topology requisite = 1;

  // Specifies the list of topologies the CO would prefer the volume to
  // be provisioned in.
  //
  // This field is OPTIONAL. If TopologyRequirement is specified either
  // requisite or preferred or both MUST be specified.
  // 
  // An SP MUST attempt to make the provisioned volume available using
  // the preferred topologies in order from first to last.
  //
  // If requisite is specified, all topologies in preferred list MUST
  // also be present in the list of requisite topologies.
  //
  // If the SP is unable to to make the provisioned volume available
  // from any of the preferred topologies, the SP MAY choose a topology
  // from the list of requisite topologies.
  // If the list of requisite topologies is not specified, then the SP
  // MAY choose from the list of all possible topologies.
  // If the list of requisite topologies is specified and the SP is
  // unable to to make the provisioned volume available from any of the
  // requisite topologies it MUST fail the CreateVolume call.
  // 
  // Example 1:
  // Given a volume should be accessible from a single zone, and
  // requisite =
  //   {"region": "R1", "zone": "Z2"},
  //   {"region": "R1", "zone": "Z3"}
  // preferred =
  //   {"region": "R1", "zone": "Z3"}
  // then the the SP SHOULD first attempt to make the provisioned volume
  // available from "zone" "Z3" in the "region" "R1" and fall back to
  // "zone" "Z2" in the "region" "R1" if that is not possible.
  //
  // Example 2:
  // Given a volume should be accessible from a single zone, and
  // requisite =
  //   {"region": "R1", "zone": "Z2"},
  //   {"region": "R1", "zone": "Z3"},
  //   {"region": "R1", "zone": "Z4"},
  //   {"region": "R1", "zone": "Z5"}
  // preferred =
  //   {"region": "R1", "zone": "Z4"},
  //   {"region": "R1", "zone": "Z2"}
  // then the the SP SHOULD first attempt to make the provisioned volume
  // accessible from "zone" "Z4" in the "region" "R1" and fall back to
  // "zone" "Z2" in the "region" "R1" if that is not possible. If that
  // is not possible, the SP may choose between either the "zone"
  // "Z3" or "Z5" in the "region" "R1".
  //
  // Example 3:
  // Given a volume should be accessible from TWO zones (because an
  // opaque parameter in CreateVolumeRequest, for example, specifies
  // the volume is accessible from two zones, aka synchronously
  // replicated), and
  // requisite =
  //   {"region": "R1", "zone": "Z2"},
  //   {"region": "R1", "zone": "Z3"},
  //   {"region": "R1", "zone": "Z4"},
  //   {"region": "R1", "zone": "Z5"}
  // preferred =
  //   {"region": "R1", "zone": "Z5"},
  //   {"region": "R1", "zone": "Z3"}
  // then the the SP SHOULD first attempt to make the provisioned volume
  // accessible from the combination of the two "zones" "Z5" and "Z3" in
  // the "region" "R1". If that's not possible, it should fall back to
  // a combination of "Z5" and other possibilities from the list of
  // requisite. If that's not possible, it should fall back  to a
  // combination of "Z3" and other possibilities from the list of
  // requisite. If that's not possible, it should fall back  to a
  // combination of other possibilities from the list of requisite.
  repeated Topology preferred = 2;
}

// Topology is a map of topological domains to topological segments.
// A topological domain is a sub-division of a cluster, like "region",
// "zone", "rack", etc.
// A topological segment is a specific instance of a topological domain,
// like "zone3", "rack3", etc.
// For example {"com.company/zone": "Z1", "com.company/rack": "R3"}
// Valid keys have two segments: an optional prefix and name, separated
// by a slash (/), for example: "com.company.example/zone".
// The key name segment is required. The prefix is optional.
// Both the key name and the prefix MUST each be 63 characters or less,
// begin and end with an alphanumeric character ([a-z0-9A-Z]) and
// contain only dashes (-), underscores (_), dots (.), or alphanumerics
// in between, for example "zone".
// The key prefix MUST follow reverse domain name notation format
// (https://en.wikipedia.org/wiki/Reverse_domain_name_notation).
// The key prefix SHOULD include the plugin's host company name and/or
// the plugin name, to minimize the possibility of collisions with keys
// from other plugins.
// If a key prefix is specified, it MUST be identical across all
// topology keys returned by the SP (across all RPCs).
// Keys MUST be case-insensitive. Meaning the keys "Zone" and "zone"
// MUST not both exist.
// Each value (topological segment) MUST contain 1 or more strings.
// Each string MUST be 63 characters or less and begin and end with an
// alphanumeric character with '-', '_', '.', or alphanumerics in
// between.
message Topology {
  map<string, string> segments = 1;
}
CreateVolume Errors

If the plugin is unable to complete the CreateVolume call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Volume already exists but is incompatible 6 ALREADY_EXISTS Indicates that a volume corresponding to the specified volume name already exists but is incompatible with the specified capacity_range, volume_capabilities or parameters. Caller MUST fix the arguments or use a different name before retrying.
Unable to provision in accessible_topology 8 RESOURCE_EXHAUSTED Indicates that although the accessible_topology field is valid, a new volume can not be provisioned with the specified topology constraints. More human-readable information MAY be provided in the gRPC status.message field. Caller MUST ensure that whatever is preventing volumes from being provisioned in the specified location (e.g. quota issues) is addressed before retrying with exponential backoff.
Operation pending for volume 10 ABORTED Indicates that there is a already an operation pending for the specified volume. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per volume at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same volume. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified volume, and then retry with exponential back off.
Unsupported capacity_range 11 OUT_OF_RANGE Indicates that the capacity range is not allowed by the Plugin, for example when trying to create a volume smaller than the source snapshot. More human-readable information MAY be provided in the gRPC status.message field. Caller MUST fix the capacity range before retrying.
Call not implemented 12 UNIMPLEMENTED CreateVolume call is not implemented by the plugin or disabled in the Plugin's current mode of operation. Caller MUST NOT retry. Caller MAY call ControllerGetCapabilities or NodeGetCapabilities to discover Plugin capabilities.

DeleteVolume

A Controller Plugin MUST implement this RPC call if it has CREATE_DELETE_VOLUME capability. This RPC will be called by the CO to deprovision a volume. If successful, the storage space associated with the volume MUST be released and all the data in the volume SHALL NOT be accessible anymore.

This operation MUST be idempotent. If a volume corresponding to the specified volume_id does not exist or the artifacts associated with the volume do not exist anymore, the Plugin MUST reply 0 OK.

message DeleteVolumeRequest {
  // The ID of the volume to be deprovisioned.
  // This field is REQUIRED.
  string volume_id = 1;

  // Secrets required by plugin to complete volume deletion request.
  // This field is OPTIONAL. Refer to the `Secrets Requirements`
  // section on how to use this field.
  map<string, string> controller_delete_secrets = 2;
}

message DeleteVolumeResponse {
  // Intentionally empty.
}
DeleteVolume Errors

If the plugin is unable to complete the DeleteVolume call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Volume in use 9 FAILED_PRECONDITION Indicates that the volume corresponding to the specified volume_id could not be deleted because it is in use by another resource. Caller SHOULD ensure that there are no other resources using the volume, and then retry with exponential back off.
Operation pending for volume 10 ABORTED Indicates that there is a already an operation pending for the specified volume. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per volume at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same volume. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified volume, and then retry with exponential back off.
Call not implemented 12 UNIMPLEMENTED DeleteVolume call is not implemented by the plugin or disabled in the Plugin's current mode of operation. Caller MUST NOT retry. Caller MAY call ControllerGetCapabilities or NodeGetCapabilities to discover Plugin capabilities.

ControllerPublishVolume

A Controller Plugin MUST implement this RPC call if it has PUBLISH_UNPUBLISH_VOLUME controller capability. This RPC will be called by the CO when it wants to place a workload that uses the volume onto a node. The Plugin SHOULD perform the work that is necessary for making the volume available on the given node. The Plugin MUST NOT assume that this RPC will be executed on the node where the volume will be used.

This operation MUST be idempotent. If the volume corresponding to the volume_id has already been published at the node corresponding to the node_id, and is compatible with the specified volume_capability and readonly flag, the Plugin MUST reply 0 OK.

If the operation failed or the CO does not know if the operation has failed or not, it MAY choose to call ControllerPublishVolume again or choose to call ControllerUnpublishVolume.

The CO MAY call this RPC for publishing a volume to multiple nodes if the volume has MULTI_NODE capability (i.e., MULTI_NODE_READER_ONLY, MULTI_NODE_SINGLE_WRITER or MULTI_NODE_MULTI_WRITER).

message ControllerPublishVolumeRequest {
  // The ID of the volume to be used on a node.
  // This field is REQUIRED.
  string volume_id = 1;

  // The ID of the node. This field is REQUIRED. The CO SHALL set this
  // field to match the node ID returned by `NodeGetInfo`.
  string node_id = 2;

  // The capability of the volume the CO expects the volume to have.
  // This is a REQUIRED field.
  VolumeCapability volume_capability = 3;

  // Whether to publish the volume in readonly mode. This field is
  // REQUIRED.
  bool readonly = 4;

  // Secrets required by plugin to complete controller publish volume
  // request. This field is OPTIONAL. Refer to the
  // `Secrets Requirements` section on how to use this field.
  map<string, string> controller_publish_secrets = 5;

  // Attributes of the volume to be used on a node. This field is
  // OPTIONAL and MUST match the attributes of the Volume identified
  // by `volume_id`.
  map<string, string> volume_attributes = 6;
}

message ControllerPublishVolumeResponse {
  // The SP specific information that will be passed to the Plugin in
  // the subsequent `NodeStageVolume` or `NodePublishVolume` calls
  // for the given volume.
  // This information is opaque to the CO. This field is OPTIONAL.
  map<string, string> publish_info = 1;
}
ControllerPublishVolume Errors

If the plugin is unable to complete the ControllerPublishVolume call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Volume does not exist 5 NOT_FOUND Indicates that a volume corresponding to the specified volume_id does not exist. Caller MUST verify that the volume_id is correct and that the volume is accessible and has not been deleted before retrying with exponential back off.
Node does not exist 5 NOT_FOUND Indicates that a node corresponding to the specified node_id does not exist. Caller MUST verify that the node_id is correct and that the node is available and has not been terminated or deleted before retrying with exponential backoff.
Volume published but is incompatible 6 ALREADY_EXISTS Indicates that a volume corresponding to the specified volume_id has already been published at the node corresponding to the specified volume_id but is incompatible with the specified volume_capability or readonly flag . Caller MUST fix the arguments before retying.
Volume published to another node 9 FAILED_PRECONDITION Indicates that a volume corresponding to the specified volume_id has already been published at another node and does not have MULTI_NODE volume capability. If this error code is returned, the Plugin SHOULD specify the node_id of the node at which the volume is published as part of the gRPC status.message. Caller SHOULD ensure the specified volume is not published at any other node before retrying with exponential back off.
Max volumes attached 8 RESOURCE_EXHAUSTED Indicates that the maximum supported number of volumes that can be attached to the specified node are already attached. Therefore, this operation will fail until at least one of the existing attached volumes is detached from the node. Caller MUST ensure that the number of volumes already attached to the node is less then the maximum supported number of volumes before retrying with exponential backoff.
Operation pending for volume 10 ABORTED Indicates that there is a already an operation pending for the specified volume. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per volume at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same volume. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified volume, and then retry with exponential back off.
Call not implemented 12 UNIMPLEMENTED ControllerPublishVolume call is not implemented by the plugin or disabled in the Plugin's current mode of operation. Caller MUST NOT retry. Caller MAY call ControllerGetCapabilities or NodeGetCapabilities to discover Plugin capabilities.

ControllerUnpublishVolume

Controller Plugin MUST implement this RPC call if it has PUBLISH_UNPUBLISH_VOLUME controller capability. This RPC is a reverse operation of ControllerPublishVolume. It MUST be called after all NodeUnstageVolume and NodeUnpublishVolume on the volume are called and succeed. The Plugin SHOULD perform the work that is necessary for making the volume ready to be consumed by a different node. The Plugin MUST NOT assume that this RPC will be executed on the node where the volume was previously used.

This RPC is typically called by the CO when the workload using the volume is being moved to a different node, or all the workload using the volume on a node has finished.

This operation MUST be idempotent. If the volume corresponding to the volume_id is not attached to the node corresponding to the node_id, the Plugin MUST reply 0 OK. If this operation failed, or the CO does not know if the operation failed or not, it can choose to call ControllerUnpublishVolume again.

message ControllerUnpublishVolumeRequest {
  // The ID of the volume. This field is REQUIRED.
  string volume_id = 1;

  // The ID of the node. This field is OPTIONAL. The CO SHOULD set this
  // field to match the node ID returned by `NodeGetInfo` or leave it
  // unset. If the value is set, the SP MUST unpublish the volume from
  // the specified node. If the value is unset, the SP MUST unpublish
  // the volume from all nodes it is published to.
  string node_id = 2;

  // Secrets required by plugin to complete controller unpublish volume
  // request. This SHOULD be the same secrets passed to the
  // ControllerPublishVolume call for the specified volume.
  // This field is OPTIONAL. Refer to the `Secrets Requirements`
  // section on how to use this field.
  map<string, string> controller_unpublish_secrets = 3;
}

message ControllerUnpublishVolumeResponse {
  // Intentionally empty.
}
ControllerUnpublishVolume Errors

If the plugin is unable to complete the ControllerUnpublishVolume call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Volume does not exist 5 NOT_FOUND Indicates that a volume corresponding to the specified volume_id does not exist. Caller MUST verify that the volume_id is correct and that the volume is accessible and has not been deleted before retrying with exponential back off.
Node does not exist 5 NOT_FOUND Indicates that a node corresponding to the specified node_id does not exist. Caller MUST verify that the node_id is correct and that the node is available and has not been terminated or deleted before retrying with exponential backoff.
Operation pending for volume 10 ABORTED Indicates that there is a already an operation pending for the specified volume. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per volume at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same volume. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified volume, and then retry with exponential back off.
Call not implemented 12 UNIMPLEMENTED ControllerUnpublishVolume call is not implemented by the plugin or disabled in the Plugin's current mode of operation. Caller MUST NOT retry. Caller MAY call ControllerGetCapabilities or NodeGetCapabilities to discover Plugin capabilities.

ValidateVolumeCapabilities

A Controller Plugin MUST implement this RPC call. This RPC will be called by the CO to check if a pre-provisioned volume has all the capabilities that the CO wants. This RPC call SHALL return supported only if all the volume capabilities specified in the request are supported. This operation MUST be idempotent.

message ValidateVolumeCapabilitiesRequest {
  // The ID of the volume to check. This field is REQUIRED.
  string volume_id = 1;

  // The capabilities that the CO wants to check for the volume. This
  // call SHALL return "supported" only if all the volume capabilities
  // specified below are supported. This field is REQUIRED.
  repeated VolumeCapability volume_capabilities = 2;

  // Attributes of the volume to check. This field is OPTIONAL and MUST
  // match the attributes of the Volume identified by `volume_id`.
  map<string, string> volume_attributes = 3;

  // Specifies where (regions, zones, racks, etc.) the caller believes
  // the volume is accessible from.
  // A caller MAY specify multiple topologies to indicate they believe
  // the volume to be accessible from multiple locations.
  // This field is OPTIONAL. This field SHALL NOT be set unless the
  // plugin advertises the ACCESSIBILITY_CONSTRAINTS capability.
  repeated Topology accessible_topology = 4;
}

message ValidateVolumeCapabilitiesResponse {
  // True if the Plugin supports the specified capabilities for the
  // given volume. This field is REQUIRED.
  bool supported = 1;

  // Message to the CO if `supported` above is false. This field is
  // OPTIONAL.
  // An empty string is equal to an unspecified field value.
  string message = 2;
}
ValidateVolumeCapabilities Errors

If the plugin is unable to complete the ValidateVolumeCapabilities call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Volume does not exist 5 NOT_FOUND Indicates that a volume corresponding to the specified volume_id does not exist. Caller MUST verify that the volume_id is correct and that the volume is accessible and has not been deleted before retrying with exponential back off.

ListVolumes

A Controller Plugin MUST implement this RPC call if it has LIST_VOLUMES capability. The Plugin SHALL return the information about all the volumes that it knows about.

message ListVolumesRequest {
  // If specified (non-zero value), the Plugin MUST NOT return more
  // entries than this number in the response. If the actual number of
  // entries is more than this number, the Plugin MUST set `next_token`
  // in the response which can be used to get the next page of entries
  // in the subsequent `ListVolumes` call. This field is OPTIONAL. If
  // not specified (zero value), it means there is no restriction on the
  // number of entries that can be returned.
  // The value of this field MUST NOT be negative.
  int32 max_entries = 1;

  // A token to specify where to start paginating. Set this field to
  // `next_token` returned by a previous `ListVolumes` call to get the
  // next page of entries. This field is OPTIONAL.
  // An empty string is equal to an unspecified field value.
  string starting_token = 2;
}

message ListVolumesResponse {
  message Entry {
    Volume volume = 1;
  }

  repeated Entry entries = 1;

  // This token allows you to get the next page of entries for
  // `ListVolumes` request. If the number of entries is larger than
  // `max_entries`, use the `next_token` as a value for the
  // `starting_token` field in the next `ListVolumes` request. This
  // field is OPTIONAL.
  // An empty string is equal to an unspecified field value.
  string next_token = 2;
}
ListVolumes Errors

If the plugin is unable to complete the ListVolumes call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Invalid starting_token 10 ABORTED Indicates that starting_token is not valid. Caller SHOULD start the ListVolumes operation again with an empty starting_token.

GetCapacity

A Controller Plugin MUST implement this RPC call if it has GET_CAPACITY controller capability. The RPC allows the CO to query the capacity of the storage pool from which the controller provisions volumes.

message GetCapacityRequest {
  // If specified, the Plugin SHALL report the capacity of the storage
  // that can be used to provision volumes that satisfy ALL of the
  // specified `volume_capabilities`. These are the same
  // `volume_capabilities` the CO will use in `CreateVolumeRequest`.
  // This field is OPTIONAL.
  repeated VolumeCapability volume_capabilities = 1;

  // If specified, the Plugin SHALL report the capacity of the storage
  // that can be used to provision volumes with the given Plugin
  // specific `parameters`. These are the same `parameters` the CO will
  // use in `CreateVolumeRequest`. This field is OPTIONAL.
  map<string, string> parameters = 2;

  // If specified, the Plugin SHALL report the capacity of the storage
  // that can be used to provision volumes that in the specified
  // `accessible_topology`. This is the same as the
  // `accessible_topology` the CO returns in a `CreateVolumeResponse`.
  // This field is OPTIONAL. This field SHALL NOT be set unless the
  // plugin advertises the ACCESSIBILITY_CONSTRAINTS capability.
  Topology accessible_topology = 3;
}

message GetCapacityResponse {
  // The available capacity, in bytes, of the storage that can be used
  // to provision volumes. If `volume_capabilities` or `parameters` is
  // specified in the request, the Plugin SHALL take those into
  // consideration when calculating the available capacity of the
  // storage. This field is REQUIRED.
  // The value of this field MUST NOT be negative.
  int64 available_capacity = 1;
}
GetCapacity Errors

If the plugin is unable to complete the GetCapacity call successfully, it MUST return a non-ok gRPC code in the gRPC status.

ControllerGetCapabilities

A Controller Plugin MUST implement this RPC call. This RPC allows the CO to check the supported capabilities of controller service provided by the Plugin.

message ControllerGetCapabilitiesRequest {
  // Intentionally empty.
}

message ControllerGetCapabilitiesResponse {
  // All the capabilities that the controller service supports. This
  // field is OPTIONAL.
  repeated ControllerServiceCapability capabilities = 2;
}

// Specifies a capability of the controller service.
message ControllerServiceCapability {
  message RPC {
    enum Type {
      UNKNOWN = 0;
      CREATE_DELETE_VOLUME = 1;
      PUBLISH_UNPUBLISH_VOLUME = 2;
      LIST_VOLUMES = 3;
      GET_CAPACITY = 4;
      // Currently the only way to consume a snapshot is to create
      // a volume from it. Therefore plugins supporting
      // CREATE_DELETE_SNAPSHOT MUST support creating volume from
      // snapshot.
      CREATE_DELETE_SNAPSHOT = 5;
      // LIST_SNAPSHOTS is NOT REQUIRED. For plugins that need to upload
      // a snapshot after it is being cut, LIST_SNAPSHOTS COULD be used
      // with the snapshot_id as the filter to query whether the
      // uploading process is complete or not.
      LIST_SNAPSHOTS = 6;
    }

    Type type = 1;
  }

  oneof type {
    // RPC that the controller supports.
    RPC rpc = 1;
  }
}
ControllerGetCapabilities Errors

If the plugin is unable to complete the ControllerGetCapabilities call successfully, it MUST return a non-ok gRPC code in the gRPC status.

CreateSnapshot

A Controller Plugin MUST implement this RPC call if it has CREATE_DELETE_SNAPSHOT controller capability. This RPC will be called by the CO to create a new snapshot from a source volume on behalf of a user.

This operation MUST be idempotent. If a snapshot corresponding to the specified snapshot name is already successfully cut and uploaded (if upload is part of the process) and is compatible with the specified source_volume_id and parameters in the CreateSnapshotRequest, the Plugin MUST reply 0 OK with the corresponding CreateSnapshotResponse.

If an error occurs before a snapshot is cut, CreateSnapshot SHOULD return a corresponding gRPC error code that reflects the error condition.

For plugins that implement snapshot uploads, CreateSnapshot SHOULD return 10 ABORTED, a gRPC code that indicates the operation is pending for snapshot, during the snapshot uploading processs. If an error occurs during the uploading process, CreateSnapshot SHOULD return a corresponding gRPC error code that reflects the error condition.

A snapshot MAY be used as the source to provision a new volume. A CreateVolumeRequest message may specify an OPTIONAL source snapshot parameter. Reverting a snapshot, where data in the original volume is erased and replaced with data in the snapshot, is an advanced functionality not every storage system can support and therefore is currently out of scope.

message CreateSnapshotRequest {
  // The ID of the source volume to be snapshotted.
  // This field is REQUIRED.
  string source_volume_id = 1;

  // The suggested name for the snapshot. This field is REQUIRED for
  // idempotency.
  string name = 2;

  // Secrets required by plugin to complete snapshot creation request.
  // This field is OPTIONAL. Refer to the `Secrets Requirements`
  // section on how to use this field.
  map<string, string> create_snapshot_secrets = 3;

  // Plugin specific parameters passed in as opaque key-value pairs.
  // This field is OPTIONAL. The Plugin is responsible for parsing and
  // validating these parameters. COs will treat these as opaque.
  // Use cases for opaque parameters:
  // - Specify a policy to automatically clean up the snapshot.
  // - Specify an expiration date for the snapshot.
  // - Specify whether the snapshot is readonly or read/write.
  // - Specify if the snapshot should be replicated to some place.
  // - Specify primary or secondary for replication systems that
  //   support snapshotting only on primary.
  map<string, string> parameters = 4;
}

message CreateSnapshotResponse {
  // Contains all attributes of the newly created snapshot that are
  // relevant to the CO along with information required by the Plugin
  // to uniquely identify the snapshot. This field is REQUIRED.
  Snapshot snapshot = 1;
}

// The information about a provisioned snapshot.
message Snapshot {
  // This is the complete size of the snapshot in bytes. The purpose of
  // this field is to give CO guidance on how much space is needed to
  // create a volume from this snapshot. The size of the volume MUST NOT
  // be less than the size of the source snapshot. This field is
  // OPTIONAL. If this field is not set, it indicates that this size is
  // unknown. The value of this field MUST NOT be negative and a size of
  // zero means it is unspecified.
  int64 size_bytes = 1;

  // Uniquely identifies a snapshot and is generated by the plugin. It
  // will not change over time. This field is REQUIRED. The identity
  // information will be used by the CO in subsequent calls to refer to
  // the provisioned snapshot.
  string id = 2;

  // Identity information for the source volume. Note that creating a
  // snapshot from a snapshot is not supported here so the source has to
  // be a volume. This field is REQUIRED.
  string source_volume_id = 3;

  // Timestamp when the point-in-time snapshot is taken on the storage
  // system. The format of this field should be a Unix nanoseconds time
  // encoded as an int64. On Unix, the command `date +%s%N` returns the
  // current time in nanoseconds since 1970-01-01 00:00:00 UTC. This
  // field is REQUIRED.
  int64 created_at = 4;

  // The status of a snapshot.
  SnapshotStatus status = 5;
}

// The status of a snapshot.
message SnapshotStatus {
  enum Type {
     UNKNOWN = 0;
     // A snapshot is ready for use.
     READY = 1;
     // A snapshot is cut and is now being uploaded.
     // Some cloud providers and storage systems uploads the snapshot
     // to the cloud after the snapshot is cut. During this phase,
     // `thaw` can be done so the application can be running again if
     // `freeze` was done before taking the snapshot.
     UPLOADING = 2;
     // An error occurred during the snapshot uploading process.
     // This error status is specific for uploading because
     // `CreateSnaphot` is a blocking call before the snapshot is
     // cut and therefore it SHOULD NOT come back with an error
     // status when an error occurs. Instead a gRPC error code SHALL
     // be returned by `CreateSnapshot` when an error occurs before
     // a snapshot is cut.
     ERROR_UPLOADING = 3;
  }
  // This field is REQUIRED.
  Type type = 1;

  // Additional information to describe why a snapshot ended up in the
  // `ERROR_UPLOADING` status. This field is OPTIONAL.
  string details = 2;
}
CreateSnapshot Errors

If the plugin is unable to complete the CreateSnapshot call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Snapshot already exists but is incompatible 6 ALREADY_EXISTS Indicates that a snapshot corresponding to the specified snapshot name already exists but is incompatible with the specified volume_id. Caller MUST fix the arguments or use a different name before retrying.
Operation pending for snapshot 10 ABORTED Indicates that there is a already an operation pending for the specified snapshot. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per snapshot at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same snapshot. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified snapshot, and then retry with exponential back off.
Call not implemented 12 UNIMPLEMENTED CreateSnapshot call is not implemented by the plugin or disabled in the Plugin's current mode of operation. Caller MUST NOT retry. Caller MAY call ControllerGetCapabilities to discover Plugin capabilities.
Not enough space to create snapshot 13 RESOURCE_EXHAUSTED There is not enough space on the storage system to handle the create snapshot request. Caller should fail this request. Future calls to CreateSnapshot may succeed if space is freed up.

DeleteSnapshot

A Controller Plugin MUST implement this RPC call if it has CREATE_DELETE_SNAPSHOT capability. This RPC will be called by the CO to delete a snapshot. If successful, the storage space associated with the snapshot MUST be released and all the data in the snapshot SHALL NOT be accessible anymore.

This operation MUST be idempotent. If a snapshot corresponding to the specified snapshot_id does not exist or the artifacts associated with the snapshot do not exist anymore, the Plugin MUST reply 0 OK.

message DeleteSnapshotRequest {
  // The ID of the snapshot to be deleted.
  // This field is REQUIRED.
  string snapshot_id = 1;

  // Secrets required by plugin to complete snapshot deletion request.
  // This field is OPTIONAL. Refer to the `Secrets Requirements`
  // section on how to use this field.
  map<string, string> delete_snapshot_secrets = 2;
}

message DeleteSnapshotResponse {}
DeleteSnapshot Errors

If the plugin is unable to complete the DeleteSnapshot call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Snapshot in use 9 FAILED_PRECONDITION Indicates that the snapshot corresponding to the specified snapshot_id could not be deleted because it is in use by another resource. Caller SHOULD ensure that there are no other resources using the snapshot, and then retry with exponential back off.
Operation pending for snapshot 10 ABORTED Indicates that there is already an operation pending for the specified snapshot. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per snapshot at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same snapshot. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified snapshot, and then retry with exponential back off.
Call not implemented 12 UNIMPLEMENTED DeleteSnapshot call is not implemented by the plugin or disabled in the Plugin's current mode of operation. Caller MUST NOT retry. Caller MAY call ControllerGetCapabilities to discover Plugin capabilities.

ListSnapshots

A Controller Plugin MUST implement this RPC call if it has LIST_SNAPSHOTS capability. The Plugin SHALL return the information about all snapshots on the storage system within the given parameters regardless of how they were created. ListSnapshots SHALL NOT list a snapshot that is being created but has not been cut successfully yet.

// List all snapshots on the storage system regardless of how they were
// created.
message ListSnapshotsRequest {
  // If specified (non-zero value), the Plugin MUST NOT return more
  // entries than this number in the response. If the actual number of
  // entries is more than this number, the Plugin MUST set `next_token`
  // in the response which can be used to get the next page of entries
  // in the subsequent `ListSnapshots` call. This field is OPTIONAL. If
  // not specified (zero value), it means there is no restriction on the
  // number of entries that can be returned.
  // The value of this field MUST NOT be negative.
  int32 max_entries = 1;

  // A token to specify where to start paginating. Set this field to
  // `next_token` returned by a previous `ListSnapshots` call to get the
  // next page of entries. This field is OPTIONAL.
  // An empty string is equal to an unspecified field value.
  string starting_token = 2;

  // Identity information for the source volume. This field is OPTIONAL.
  // It can be used to list snapshots by volume.
  string source_volume_id = 3;

  // Identity information for a specific snapshot. This field is
  // OPTIONAL. It can be used to list only a specific snapshot.
  // ListSnapshots will return with current snapshot information
  // and will not block if the snapshot is being uploaded.
  string snapshot_id = 4;
}

message ListSnapshotsResponse {
  message Entry {
    Snapshot snapshot = 1;
  }

  repeated Entry entries = 1;

  // This token allows you to get the next page of entries for
  // `ListSnapshots` request. If the number of entries is larger than
  // `max_entries`, use the `next_token` as a value for the
  // `starting_token` field in the next `ListSnapshots` request. This
  // field is OPTIONAL.
  // An empty string is equal to an unspecified field value.
  string next_token = 2;
}
ListSnapshots Errors

If the plugin is unable to complete the ListSnapshots call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Invalid starting_token 10 ABORTED Indicates that starting_token is not valid. Caller SHOULD start the ListSnapshots operation again with an empty starting_token.

RPC Interactions

CreateVolume, DeleteVolume, ListVolumes

It is worth noting that the plugin-generated volume_id is a REQUIRED field for the DeleteVolume RPC, as opposed to the CO-generated volume name that is REQUIRED for the CreateVolume RPC: these fields MAY NOT contain the same value. If a CreateVolume operation times out, leaving the CO without an ID with which to reference a volume, and the CO also decides that it no longer needs/wants the volume in question then the CO MAY choose one of the following paths:

  1. Replay the CreateVolume RPC that timed out; upon success execute DeleteVolume using the known volume ID (from the response to CreateVolume).
  2. Execute the ListVolumes RPC to possibly obtain a volume ID that may be used to execute a DeleteVolume RPC; upon success execute DeleteVolume.
  3. The CO takes no further action regarding the timed out RPC, a volume is possibly leaked and the operator/user is expected to clean up.

It is NOT REQUIRED for a controller plugin to implement the LIST_VOLUMES capability if it supports the CREATE_DELETE_VOLUME capability: the onus is upon the CO to take into consideration the full range of plugin capabilities before deciding how to proceed in the above scenario.

CreateSnapshot, DeleteSnapshot, ListSnapshots

The plugin-generated snapshot_id is a REQUIRED field for the DeleteSnapshot RPC, as opposed to the CO-generated snapshot name that is REQUIRED for the CreateSnapshot RPC. A CreateSnapshot operation SHOULD return with a snapshot_id when the snapshot is cut successfully. If a CreateSnapshot operation times out before the snapshot is cut, leaving the CO without an ID with which to reference a snapshot, and the CO also decides that it no longer needs/wants the snapshot in question then the CO MAY choose one of the following paths:

  1. Execute the ListSnapshots RPC to possibly obtain a snapshot ID that may be used to execute a DeleteSnapshot RPC; upon success execute DeleteSnapshot.
  2. The CO takes no further action regarding the timed out RPC, a snapshot is possibly leaked and the operator/user is expected to clean up.

It is NOT REQUIRED for a controller plugin to implement the LIST_SNAPSHOTS capability if it supports the CREATE_DELETE_SNAPSHOT capability: the onus is upon the CO to take into consideration the full range of plugin capabilities before deciding how to proceed in the above scenario. A controller plugin COULD implement the LIST_SNAPSHOTS capability and call it repeatedly with the snapshot_id as a filter to query whether the uploading process is complete or not if it needs to upload a snapshot after it is being cut.

Snapshot Statuses

A snapshot could have the following statusus: UPLOADING, READY, and ERROR.

Some cloud providers will upload the snapshot to a location in the cloud (i.e., an object store) after the snapshot is cut. Uploading may be a long process that could take hours. If a freeze operation was done on the application before taking the snapshot, it could be a long time before the application can be running again if we wait until the upload is complete to thaw the application. The purpose of freeze is to ensure the application data is in consistent state. When freeze is performed, the container is paused and the application is also paused. When thaw is performed, the container and the application start running again. During the snapshot uploading phase, since the snapshot is already cut, a thaw operation can be performed so application can start running without waiting for the upload to complete. The status of the snapshot will become READY after the upload is complete.

For cloud providers and storage systems that don't have the uploading process, the status should be READY after the snapshot is cut. thaw can be done when the status is READY in this case.

A CREATING status is not included here because CreateSnapshot is synchronous and will block until the snapshot is cut.

ERROR is a terminal snapshot status. A CO SHOULD explicitly delete snapshots in this status.

The SnapshotStatus parameter provides guidance to the CO on what action can be taken in the process of snapshotting. Based on this information, CO can issue repeated (idemponent) calls to CreateSnapshot, monitor the response, and make decisions. Note that CreateSnapshot is a synchronous call and it must block until the snapshot is cut. If the cloud provider or storage system does not need to upload the snapshot after it is cut, the status returned by CreateSnapshot SHALL be READY. If the cloud provider or storage system needs to upload the snapshot after the snapshot is cut, the status returned by CreateSnapshot SHALL be UPLOADING. CO MAY continue to call CreateSnapshot while waiting for the upload to complete until the status becomes READY. Note that CreateSnapshot no longer blocks after the snapshot is cut.

Alternatively, ListSnapshots can be called repeatedly with snapshot_id as filtering to wait for the upload to complete. ListSnapshots SHALL return with current information regarding the snapshots on the storage system. When upload is complete, the status of the snapshot from ListSnapshots SHALL become READY.

Node Service RPC

NodeStageVolume

A Node Plugin MUST implement this RPC call if it has STAGE_UNSTAGE_VOLUME node capability.

This RPC is called by the CO prior to the volume being consumed by any workloads on the node by NodePublishVolume. The Plugin SHALL assume that this RPC will be executed on the node where the volume will be used. This RPC SHOULD be called by the CO when a workload that wants to use the specified volume is placed (scheduled) on the specified node for the first time or for the first time since a NodeUnstageVolume call for the specified volume was called and returned success on that node.

If the corresponding Controller Plugin has PUBLISH_UNPUBLISH_VOLUME controller capability and the Node Plugin has STAGE_UNSTAGE_VOLUME capability, then the CO MUST guarantee that this RPC is called after ControllerPublishVolume is called for the given volume on the given node and returns a success. The CO MUST guarantee that this RPC is called and returns a success before any NodePublishVolume is called for the given volume on the given node.

This operation MUST be idempotent. If the volume corresponding to the volume_id is already staged to the staging_target_path, and is identical to the specified volume_capability the Plugin MUST reply 0 OK.

If this RPC failed, or the CO does not know if it failed or not, it MAY choose to call NodeStageVolume again, or choose to call NodeUnstageVolume.

message NodeStageVolumeRequest {
  // The ID of the volume to publish. This field is REQUIRED.
  string volume_id = 1;

  // The CO SHALL set this field to the value returned by
  // `ControllerPublishVolume` if the corresponding Controller Plugin
  // has `PUBLISH_UNPUBLISH_VOLUME` controller capability, and SHALL be
  // left unset if the corresponding Controller Plugin does not have
  // this capability. This is an OPTIONAL field.
  map<string, string> publish_info = 2;

  // The path to which the volume will be published. It MUST be an
  // absolute path in the root filesystem of the process serving this
  // request. The CO SHALL ensure that there is only one
  // staging_target_path per volume.
  // This is a REQUIRED field.
  string staging_target_path = 3;

  // The capability of the volume the CO expects the volume to have.
  // This is a REQUIRED field.
  VolumeCapability volume_capability = 4;

  // Secrets required by plugin to complete node stage volume request.
  // This field is OPTIONAL. Refer to the `Secrets Requirements`
  // section on how to use this field.
  map<string, string> node_stage_secrets = 5;

  // Attributes of the volume to publish. This field is OPTIONAL and
  // MUST match the attributes of the `Volume` identified by
  // `volume_id`.
  map<string, string> volume_attributes = 6;
}

message NodeStageVolumeResponse {
  // Intentionally empty.
}

NodeStageVolume Errors

If the plugin is unable to complete the NodeStageVolume call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Volume does not exist 5 NOT_FOUND Indicates that a volume corresponding to the specified volume_id does not exist. Caller MUST verify that the volume_id is correct and that the volume is accessible and has not been deleted before retrying with exponential back off.
Volume published but is incompatible 6 ALREADY_EXISTS Indicates that a volume corresponding to the specified volume_id has already been published at the specified staging_target_path but is incompatible with the specified volume_capability flag. Caller MUST fix the arguments before retying.
Operation pending for volume 10 ABORTED Indicates that there is a already an operation pending for the specified volume. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per volume at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same volume. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified volume, and then retry with exponential back off.
Exceeds capabilities 9 FAILED_PRECONDITION Indicates that the CO has exceeded the volume's capabilities because the volume does not have MULTI_NODE capability. Caller MAY choose to call ValidateVolumeCapabilities to validate the volume capabilities, or wait for the volume to be unpublished on the node.

NodeUnstageVolume

A Node Plugin MUST implement this RPC call if it has STAGE_UNSTAGE_VOLUME node capability.

This RPC is a reverse operation of NodeStageVolume. This RPC MUST undo the work by the corresponding NodeStageVolume. This RPC SHALL be called by the CO once for each staging_target_path that was successfully setup via NodeStageVolume.

If the corresponding Controller Plugin has PUBLISH_UNPUBLISH_VOLUME controller capability and the Node Plugin has STAGE_UNSTAGE_VOLUME capability, the CO MUST guarantee that this RPC is called and returns success before calling ControllerUnpublishVolume for the given node and the given volume. The CO MUST guarantee that this RPC is called after all NodeUnpublishVolume have been called and returned success for the given volume on the given node.

The Plugin SHALL assume that this RPC will be executed on the node where the volume is being used.

This RPC MAY be called by the CO when the workload using the volume is being moved to a different node, or all the workloads using the volume on a node have finished.

This operation MUST be idempotent. If the volume corresponding to the volume_id is not staged to the staging_target_path, the Plugin MUST reply 0 OK.

If this RPC failed, or the CO does not know if it failed or not, it MAY choose to call NodeUnstageVolume again.

message NodeUnstageVolumeRequest {
  // The ID of the volume. This field is REQUIRED.
  string volume_id = 1;

  // The path at which the volume was published. It MUST be an absolute
  // path in the root filesystem of the process serving this request.
  // This is a REQUIRED field.
  string staging_target_path = 2;
}

message NodeUnstageVolumeResponse {
  // Intentionally empty.
}

NodeUnstageVolume Errors

If the plugin is unable to complete the NodeUnstageVolume call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Volume does not exist 5 NOT_FOUND Indicates that a volume corresponding to the specified volume_id does not exist. Caller MUST verify that the volume_id is correct and that the volume is accessible and has not been deleted before retrying with exponential back off.
Operation pending for volume 10 ABORTED Indicates that there is a already an operation pending for the specified volume. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per volume at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same volume. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified volume, and then retry with exponential back off.

RPC Interactions and Reference Counting

NodeStageVolume, NodeUnstageVolume, NodePublishVolume, NodeUnpublishVolume

The following interaction semantics ARE REQUIRED if the plugin advertises the STAGE_UNSTAGE_VOLUME capability. NodeStageVolume MUST be called and return success once per volume per node before any NodePublishVolume MAY be called for the volume. All NodeUnpublishVolume MUST be called and return success for a volume before NodeUnstageVolume MAY be called for the volume.

Note that this requires that all COs MUST support reference counting of volumes so that if STAGE_UNSTAGE_VOLUME is advertised by the SP, the CO MUST fulfill the above interaction semantics.

NodePublishVolume

This RPC is called by the CO when a workload that wants to use the specified volume is placed (scheduled) on a node. The Plugin SHALL assume that this RPC will be executed on the node where the volume will be used.

If the corresponding Controller Plugin has PUBLISH_UNPUBLISH_VOLUME controller capability, the CO MUST guarantee that this RPC is called after ControllerPublishVolume is called for the given volume on the given node and returns a success.

This operation MUST be idempotent. If the volume corresponding to the volume_id has already been published at the specified target_path, and is compatible with the specified volume_capability and readonly flag, the Plugin MUST reply 0 OK.

If this RPC failed, or the CO does not know if it failed or not, it MAY choose to call NodePublishVolume again, or choose to call NodeUnpublishVolume.

This RPC MAY be called by the CO multiple times on the same node for the same volume with possibly different target_path and/or other arguments if the volume has MULTI_NODE capability (i.e., access_mode is either MULTI_NODE_READER_ONLY, MULTI_NODE_SINGLE_WRITER or MULTI_NODE_MULTI_WRITER). The following table shows what the Plugin SHOULD return when receiving a second NodePublishVolume on the same volume on the same node:

T1=T2, P1=P2 T1=T2, P1!=P2 T1!=T2, P1=P2 T1!=T2, P1!=P2
MULTI_NODE OK (idempotent) ALREADY_EXISTS OK OK
Non MULTI_NODE OK (idempotent) ALREADY_EXISTS FAILED_PRECONDITION FAILED_PRECONDITION

(Tn: target path of the n-th NodePublishVolume, Pn: other arguments of the n-th NodePublishVolume except node_publish_secrets)

message NodePublishVolumeRequest {
  // The ID of the volume to publish. This field is REQUIRED.
  string volume_id = 1;

  // The CO SHALL set this field to the value returned by
  // `ControllerPublishVolume` if the corresponding Controller Plugin
  // has `PUBLISH_UNPUBLISH_VOLUME` controller capability, and SHALL be
  // left unset if the corresponding Controller Plugin does not have
  // this capability. This is an OPTIONAL field.
  map<string, string> publish_info = 2;

  // The path to which the device was mounted by `NodeStageVolume`.
  // It MUST be an absolute path in the root filesystem of the process
  // serving this request.
  // It MUST be set if the Node Plugin implements the
  // `STAGE_UNSTAGE_VOLUME` node capability.
  // This is an OPTIONAL field.
  string staging_target_path = 3;

  // The path to which the volume will be published. It MUST be an
  // absolute path in the root filesystem of the process serving this
  // request. The CO SHALL ensure uniqueness of target_path per volume.
  // The CO SHALL ensure that the path exists, and that the process
  // serving the request has `read` and `write` permissions to the path.
  // This is a REQUIRED field.
  string target_path = 4;

  // The capability of the volume the CO expects the volume to have.
  // This is a REQUIRED field.
  VolumeCapability volume_capability = 5;

  // Whether to publish the volume in readonly mode. This field is
  // REQUIRED.
  bool readonly = 6;

  // Secrets required by plugin to complete node publish volume request.
  // This field is OPTIONAL. Refer to the `Secrets Requirements`
  // section on how to use this field.
  map<string, string> node_publish_secrets = 7;

  // Attributes of the volume to publish. This field is OPTIONAL and
  // MUST match the attributes of the Volume identified by
  // `volume_id`.
  map<string, string> volume_attributes = 8;
}

message NodePublishVolumeResponse {
  // Intentionally empty.
}
NodePublishVolume Errors

If the plugin is unable to complete the NodePublishVolume call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Volume does not exist 5 NOT_FOUND Indicates that a volume corresponding to the specified volume_id does not exist. Caller MUST verify that the volume_id is correct and that the volume is accessible and has not been deleted before retrying with exponential back off.
Volume published but is incompatible 6 ALREADY_EXISTS Indicates that a volume corresponding to the specified volume_id has already been published at the specified target_path but is incompatible with the specified volume_capability or readonly flag. Caller MUST fix the arguments before retying.
Operation pending for volume 10 ABORTED Indicates that there is a already an operation pending for the specified volume. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per volume at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same volume. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified volume, and then retry with exponential back off.
Exceeds capabilities 9 FAILED_PRECONDITION Indicates that the CO has exceeded the volume's capabilities because the volume does not have MULTI_NODE capability. Caller MAY choose to call ValidateVolumeCapabilities to validate the volume capabilities, or wait for the volume to be unpublished on the node.
Staging target path not set 9 FAILED_PRECONDITION Indicates that STAGE_UNSTAGE_VOLUME capability is set but no staging_target_path was set. Caller MUST make sure call to NodeStageVolume is made and returns success before retrying with valid staging_target_path.

NodeUnpublishVolume

A Node Plugin MUST implement this RPC call. This RPC is a reverse operation of NodePublishVolume. This RPC MUST undo the work by the corresponding NodePublishVolume. This RPC SHALL be called by the CO at least once for each target_path that was successfully setup via NodePublishVolume. If the corresponding Controller Plugin has PUBLISH_UNPUBLISH_VOLUME controller capability, the CO SHOULD issue all NodeUnpublishVolume (as specified above) before calling ControllerUnpublishVolume for the given node and the given volume. The Plugin SHALL assume that this RPC will be executed on the node where the volume is being used.

This RPC is typically called by the CO when the workload using the volume is being moved to a different node, or all the workload using the volume on a node has finished.

This operation MUST be idempotent. If this RPC failed, or the CO does not know if it failed or not, it can choose to call NodeUnpublishVolume again.

message NodeUnpublishVolumeRequest {
  // The ID of the volume. This field is REQUIRED.
  string volume_id = 1;

  // The path at which the volume was published. It MUST be an absolute
  // path in the root filesystem of the process serving this request.
  // This is a REQUIRED field.
  string target_path = 2;
}

message NodeUnpublishVolumeResponse {
  // Intentionally empty.
}
NodeUnpublishVolume Errors

If the plugin is unable to complete the NodeUnpublishVolume call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Volume does not exist 5 NOT_FOUND Indicates that a volume corresponding to the specified volume_id does not exist. Caller MUST verify that the volume_id is correct and that the volume is accessible and has not been deleted before retrying with exponential back off.
Operation pending for volume 10 ABORTED Indicates that there is a already an operation pending for the specified volume. In general the Cluster Orchestrator (CO) is responsible for ensuring that there is no more than one call "in-flight" per volume at a given time. However, in some circumstances, the CO MAY lose state (for example when the CO crashes and restarts), and MAY issue multiple calls simultaneously for the same volume. The Plugin, SHOULD handle this as gracefully as possible, and MAY return this error code to reject secondary calls. Caller SHOULD ensure that there are no other calls pending for the specified volume, and then retry with exponential back off.

NodeGetId

NodeGetId RPC call is deprecated. Users of this RPC call SHOULD use NodeGetInfo.

A Node Plugin MUST implement this RPC call if the plugin has PUBLISH_UNPUBLISH_VOLUME controller capability. The Plugin SHALL assume that this RPC will be executed on the node where the volume will be used. The CO SHOULD call this RPC for the node at which it wants to place the workload. The result of this call will be used by CO in ControllerPublishVolume.

message NodeGetIdRequest {
  // Intentionally empty.
}

message NodeGetIdResponse {
  // The ID of the node as understood by the SP which SHALL be used by
  // CO in subsequent `ControllerPublishVolume`.
  // This is a REQUIRED field.
  string node_id = 1;
}
NodeGetId Errors

If the plugin is unable to complete the NodeGetId call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Call not implemented 12 UNIMPLEMENTED NodeGetId call is not implemented by the plugin or disabled in the Plugin's current mode of operation. Caller MUST NOT retry. Caller MAY call ControllerGetCapabilities or NodeGetCapabilities to discover Plugin capabilities.

NodeGetCapabilities

A Node Plugin MUST implement this RPC call. This RPC allows the CO to check the supported capabilities of node service provided by the Plugin.

message NodeGetCapabilitiesRequest {
  // Intentionally empty.
}

message NodeGetCapabilitiesResponse {
  // All the capabilities that the node service supports. This field
  // is OPTIONAL.
  repeated NodeServiceCapability capabilities = 1;
}

// Specifies a capability of the node service.
message NodeServiceCapability {
  message RPC {
    enum Type {
      UNKNOWN = 0;
      STAGE_UNSTAGE_VOLUME = 1;
    }

    Type type = 1;
  }

  oneof type {
    // RPC that the controller supports.
    RPC rpc = 1;
  }
}
NodeGetCapabilities Errors

If the plugin is unable to complete the NodeGetCapabilities call successfully, it MUST return a non-ok gRPC code in the gRPC status.

NodeGetInfo

A Node Plugin MUST implement this RPC call if the plugin has PUBLISH_UNPUBLISH_VOLUME controller capability. The Plugin SHALL assume that this RPC will be executed on the node where the volume will be used. The CO SHOULD call this RPC for the node at which it wants to place the workload. The result of this call will be used by CO in ControllerPublishVolume.

message NodeGetInfoRequest {
}

message NodeGetInfoResponse {
  // The ID of the node as understood by the SP which SHALL be used by
  // CO in subsequent calls to `ControllerPublishVolume`.
  // This is a REQUIRED field.
  string node_id = 1;

  // Maximum number of volumes that controller can publish to the node.
  // If value is not set or zero CO SHALL decide how many volumes of
  // this type can be published by the controller to the node. The
  // plugin MUST NOT set negative values here.
  // This field is OPTIONAL.
  int64 max_volumes_per_node = 2;

  // Specifies where (regions, zones, racks, etc.) the node is
  // accessible from.
  // A plugin that returns this field MUST also set the
  // ACCESSIBILITY_CONSTRAINTS plugin capability.
  // COs MAY use this information along with the topology information
  // returned in CreateVolumeResponse to ensure that a given volume is
  // accessible from a given node when scheduling workloads.
  // This field is OPTIONAL. If it is not specified, the CO MAY assume
  // the node is not subject to any topological constraint, and MAY
  // schedule workloads that reference any volume V, such that there are
  // no topological constraints declared for V.
  //
  // Example 1:
  //   accessible_topology =
  //     {"region": "R1", "zone": "R2"}
  // Indicates the node exists within the "region" "R1" and the "zone"
  // "Z2".
  Topology accessible_topology = 3;
}
NodeGetInfo Errors

If the plugin is unable to complete the NodeGetInfo call successfully, it MUST return a non-ok gRPC code in the gRPC status. If the conditions defined below are encountered, the plugin MUST return the specified gRPC error code. The CO MUST implement the specified error recovery behavior when it encounters the gRPC error code.

Condition gRPC Code Description Recovery Behavior
Call not implemented 12 UNIMPLEMENTED NodeGetInfo call is not implemented by the plugin or disabled in the Plugin's current mode of operation. Caller MUST NOT retry. Caller MAY call ControllerGetCapabilities or NodeGetCapabilities to discover Plugin capabilities.

Protocol

Connectivity

  • A CO SHALL communicate with a Plugin using gRPC to access the Identity, and (optionally) the Controller and Node services.
    • proto3 SHOULD be used with gRPC, as per the official recommendations.
    • All Plugins SHALL implement the REQUIRED Identity service RPCs. Support for OPTIONAL RPCs is reported by the ControllerGetCapabilities and NodeGetCapabilities RPC calls.
  • The CO SHALL provide the listen-address for the Plugin by way of the CSI_ENDPOINT environment variable. Plugin components SHALL create, bind, and listen for RPCs on the specified listen address.
    • Only UNIX Domain Sockets may be used as endpoints. This will likely change in a future version of this specification to support non-UNIX platforms.
  • All supported RPC services MUST be available at the listen address of the Plugin.

Security

  • The CO operator and Plugin Supervisor SHOULD take steps to ensure that any and all communication between the CO and Plugin Service are secured according to best practices.
  • Communication between a CO and a Plugin SHALL be transported over UNIX Domain Sockets.
    • gRPC is compatible with UNIX Domain Sockets; it is the responsibility of the CO operator and Plugin Supervisor to properly secure access to the Domain Socket using OS filesystem ACLs and/or other OS-specific security context tooling.
    • SP’s supplying stand-alone Plugin controller appliances, or other remote components that are incompatible with UNIX Domain Sockets must provide a software component that proxies communication between a UNIX Domain Socket and the remote component(s). Proxy components transporting communication over IP networks SHALL be responsible for securing communications over such networks.
  • Both the CO and Plugin SHOULD avoid accidental leakage of sensitive information (such as redacting such information from log files).

Debugging

  • Debugging and tracing are supported by external, CSI-independent additions and extensions to gRPC APIs, such as OpenTracing.

Configuration and Operation

General Configuration

  • The CSI_ENDPOINT environment variable SHALL be supplied to the Plugin by the Plugin Supervisor.
  • An operator SHALL configure the CO to connect to the Plugin via the listen address identified by CSI_ENDPOINT variable.
  • With exception to sensitive data, Plugin configuration SHOULD be specified by environment variables, whenever possible, instead of by command line flags or bind-mounted/injected files.

Plugin Bootstrap Example

  • Supervisor -> Plugin: CSI_ENDPOINT=unix:///path/to/unix/domain/socket.sock.
  • Operator -> CO: use plugin at endpoint unix:///path/to/unix/domain/socket.sock.
  • CO: monitor /path/to/unix/domain/socket.sock.
  • Plugin: read CSI_ENDPOINT, create UNIX socket at specified path, bind and listen.
  • CO: observe that socket now exists, establish connection.
  • CO: invoke GetPluginCapabilities.

Filesystem

  • Plugins SHALL NOT specify requirements that include or otherwise reference directories and/or files on the root filesystem of the CO.
  • Plugins SHALL NOT create additional files or directories adjacent to the UNIX socket specified by CSI_ENDPOINT; violations of this requirement constitute "abuse".
    • The Plugin Supervisor is the ultimate authority of the directory in which the UNIX socket endpoint is created and MAY enforce policies to prevent and/or mitigate abuse of the directory by Plugins.

Supervised Lifecycle Management

  • For Plugins packaged in software form:
    • Plugin Packages SHOULD use a well-documented container image format (e.g., Docker, OCI).
    • The chosen package image format MAY expose configurable Plugin properties as environment variables, unless otherwise indicated in the section below. Variables so exposed SHOULD be assigned default values in the image manifest.
    • A Plugin Supervisor MAY programmatically evaluate or otherwise scan a Plugin Package’s image manifest in order to discover configurable environment variables.
    • A Plugin SHALL NOT assume that an operator or Plugin Supervisor will scan an image manifest for environment variables.

Environment Variables

  • Variables defined by this specification SHALL be identifiable by their CSI_ name prefix.
  • Configuration properties not defined by the CSI specification SHALL NOT use the same CSI_ name prefix; this prefix is reserved for common configuration properties defined by the CSI specification.
  • The Plugin Supervisor SHOULD supply all recommended CSI environment variables to a Plugin.
  • The Plugin Supervisor SHALL supply all required CSI environment variables to a Plugin.
CSI_ENDPOINT

Network endpoint at which a Plugin SHALL host CSI RPC services. The general format is:

{scheme}://{authority}{endpoint}

The following address types SHALL be supported by Plugins:

unix:///path/to/unix/socket.sock

Note: All UNIX endpoints SHALL end with .sock. See gRPC Name Resolution.

This variable is REQUIRED.

Operational Recommendations

The Plugin Supervisor expects that a Plugin SHALL act as a long-running service vs. an on-demand, CLI-driven process.

Supervised plugins MAY be isolated and/or resource-bounded.

Logging
  • Plugins SHOULD generate log messages to ONLY standard output and/or standard error.
    • In this case the Plugin Supervisor SHALL assume responsibility for all log lifecycle management.
  • Plugin implementations that deviate from the above recommendation SHALL clearly and unambiguously document the following:
    • Logging configuration flags and/or variables, including working sample configurations.
    • Default log destination(s) (where do the logs go if no configuration is specified?)
    • Log lifecycle management ownership and related guidance (size limits, rate limits, rolling, archiving, expunging, etc.) applicable to the logging mechanism embedded within the Plugin.
  • Plugins SHOULD NOT write potentially sensitive data to logs (e.g. secrets).
Available Services
  • Plugin Packages MAY support all or a subset of CSI services; service combinations MAY be configurable at runtime by the Plugin Supervisor.
    • A plugin must know the "mode" in which it is operating (e.g. node, controller, or both).
    • This specification does not dictate the mechanism by which mode of operation must be discovered, and instead places that burden upon the SP.
  • Misconfigured plugin software SHOULD fail-fast with an OS-appropriate error code.
Linux Capabilities
  • Plugin Supervisor SHALL guarantee that plugins will have CAP_SYS_ADMIN capability on Linux when running on Nodes.
  • Plugins SHOULD clearly document any additionally required capabilities and/or security context.
Namespaces
  • A Plugin SHOULD NOT assume that it is in the same Linux namespaces as the Plugin Supervisor. The CO MUST clearly document the mount propagation requirements for Node Plugins and the Plugin Supervisor SHALL satisfy the CO’s requirements.
Cgroup Isolation
  • A Plugin MAY be constrained by cgroups.
  • An operator or Plugin Supervisor MAY configure the devices cgroup subsystem to ensure that a Plugin may access requisite devices.
  • A Plugin Supervisor MAY define resource limits for a Plugin.
Resource Requirements
  • SPs SHOULD unambiguously document all of a Plugin’s resource requirements.